Verfügbarkeit: Soil colloids

Soil colloids: properties and ion binding

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Bibliographische Detailangaben
1. Verfasser:	Molina, Fernando V. (VerfasserIn)
Format:	Buch
Sprache:	English
Veröffentlicht:	Boca Raton [u.a.] CRC Press 2014
Schriftenreihe:	Surfactant science series 156
Schlagworte:	Soil colloids Soils > Analysis Bodenkolloid
Online-Zugang:	Inhaltsverzeichnis
Beschreibung:	Includes bibliographical references and index
Beschreibung:	XXVIII, 513 S.
ISBN:	9781439851142

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adam_text	Titel: Soil colloids Autor: Molina, Fernando Víctor Jahr: 2014 Contents Preface.....................................................................................................................xxi List of Common Greek Symbols.........................................................................xxiii List of Common Symbols......................................................................................xxv List of Common Acronyms..................................................................................xxvii PART I Foundations Chapter 1 Introduction..........................................................................................3 1.1 Soil.............................................................................................3 1.2 Soil Chemistry, Soil Colloids, and Metal Ions..........................3 1.3 Book Contents...........................................................................4 References............................................................................................5 Chapter 2 Colloidal Particles and Colloidal Suspensions.. 2.1 Colloidal Particles.....................................................................7 2.2 Soil Colloids............................................................................10 2.3 Colloidal Suspensions: General Properties and Classification...........................................................................14 2.3.1 Importance of Surface in Colloidal Systems.............17 2.3.2 Surface Energy...........................................................18 2.4 Fundamentals of Interfacial Thermodynamics.......................19 2.4.1 Surface Excesses........................................................19 2.4.2 Gibbs Equation...........................................................21 2.5 Summary.................................................................................24 References..........................................................................................25 Chapter 3 Electrified Interface............................................................................27 3.1 Basic Principles.......................................................................27 3.1.1 Electrochemical Equilibrium.....................................27 3.1.2 Poisson and Poisson-Boltzmann Equations...............29 3.1.2.1 Poisson Equation.........................................29 3.1.2.2 Poisson-Boltzmann Equation.....................29 3.2 Application of the Poisson-Boltzmann Equation...................31 3.2.1 Linearization of the PB Equation and the Debye-Hiickel Theory...............................................31 3.2.2 Gouy-Chapman Theory.............................................34 xiv Contents 3.2.3 Analytical Solutions for Other Cases.........................37 3.2.3.1 Cylindrical Coordinates..............................37 3.2.3.2 Other Cases.................................................39 3.2.4 Numerical Solutions to the Poisson-Boltzmann Equation.....................................................................39 3.3 Interfacial Capacitance and the Stern and Grahame Models.....................................................................................42 3.3.1 Interfacial Capacitance...............................................43 3.3.2 Stern Modification......................................................44 3.3.3 Grahame Modification of the Gouy-Chapman- Stern Theory...............................................................47 3.4 Beyond the Poisson-Boltzmann Equation..............................49 3.5 Approximate Solutions of the PB Equation............................55 3.6 Summary.................................................................................56 References..........................................................................................56 Chapter 4 Sorption onto Colloidal Particles.......................................................63 4.1 General Concepts....................................................................63 4.2 Sorption Isotherms..................................................................63 4.2.1 Gas Phase Isotherm Types.........................................64 4.2.2 Isotherm Classification for Sorption from Solution ...69 4.3 Physical Nature of Adsorption................................................75 4.3.1 Adsorption from Gas Phase.......................................75 4.3.2 Adsorption from Solution...........................................76 4.3.3 Interaction between a Molecule or Ion and a Surface........................................................................78 4.3.3.1 Intermolecular Interactions.........................78 4.3.3.2 Interactions with a Macroscopic Particle ...83 4.4 Theory of Adsorption Isotherms.............................................86 4.4.1 Limiting (Henry) Isotherm.........................................86 4.4.2 Ideal Monolayer. Langmuir Isotherm........................86 4.4.3 Competitive and Multisite Langmuir Isotherms........89 4.4.4 Ideal Multilayer (BET) Isotherm................................91 4.4.5 Beyond Ideal Isotherms..............................................94 4.4.6 Adsorption with Interactions: The Fowler- Guggenheim Isotherm................................................95 4.4.7 Surface Heterogeneity................................................98 4.4.7.1 Sips Distribution Function..........................98 4.4.7.2 Langmuir-Freundlich and Freundlich Isotherms....................................................99 4.5 Other Isotherm Equations.....................................................100 4.6 Isotherm Comparison and Assignment.................................103 4.7 Summary...............................................................................106 References........................................................................................106 Contents xv Chapter 5 Surface Charge of Colloidal Particles..............................................Ill 5.1 Contributions to Surface Charge...........................................Ill 5.1.1 Permanent Charge....................................................Ill 5.1.2 Protonic and Intrinsic Charge..................................112 5.1.3 Inner and Outer Sphere Complex Charges...............113 5.1.4 Particle Charge Balance...........................................114 5.1.5 Soil Charge...............................................................115 5.2 Ion Sorption and Surface Charge Development....................116 5.3 Ion Exchange.........................................................................118 5.3.1 Thermodynamics of Ion Exchange: Vanselow Convention................................................................119 5.3.2 Other Conventions and Selectivity Coefficient Expressions...............................................................122 5.3.2.1 Kerr Convention........................................122 5.3.2.2 Gaines and Thomas Convention...............122 5.3.2.3 Krishnamoorthy and Overstreet Convention................................................124 5.3.2.4 Gapon Selectivity Coefficient...................125 5.3.2.5 Cernik et al. Convention...........................125 5.3.2.6 Other Aspects...........................................126 5.3.3 Ion Exchange Analysis and Parameter Computation... 127 5.3.3.1 Argensinger Method.................................127 5.3.3.2 Rothmund-Kornfeld Method...................130 5.3.4 Ion Exchange in Soils...............................................131 5.3.4.1 Examples of Ion Exchange in Soils..........133 5.3.4.2 Ion Preference...........................................135 5.4 Determination of Surface Charge.........................................138 5.4.1 Electrophoretic Methods..........................................138 5.4.2 Titration Methods.....................................................144 5.5 Charge Contributions and Points of Zero Charge.................147 5.5.1 Indifferent Electrolytes.............................................148 5.5.2 Charge in the Presence of Specific Adsorption........151 5.6 Summary...............................................................................153 References........................................................................................154 Chapter 6 Interparticle Interactions and Colloid Stability................................159 6.1 Thermodynamics of Particle-Particle Interaction................159 6.2 van der Waals Particle-Particle Interactions.........................161 6.3 Energies and Forces of Interaction........................................166 6.4 Electrostatic Interactions.......................................................168 6.4.1 Constant Potential Conditions..................................170 6.4.1.1 Linear Approximation: The Hogg- Healy-Fuerstenau Theory........................170 Contents 6.4.1.2 Identical Particles: Verwey-Overbeek Results.......................................................171 6.4.1.3 Derjaguin Theory.....................................172 6.4.2 Constant Charge Conditions and Comparison with Constant Potential............................................174 6.4.3 Charge Regulation....................................................176 6.5 Total Long-Range Interactions..............................................178 6.5.1 Similar Surfaces: Classic DLVO Theory.................178 6.5.2 Dissimilar Particles..................................................182 6.5.3 Colloidal Suspension Stability.................................183 6.6 Beyond DLVO.......................................................................188 6.6.1 DLVO Theory Limitations.......................................188 6.6.2 DLVO Extensions.....................................................190 6.6.3 Alternative Models...................................................191 6.7 Summary...............................................................................192 References........................................................................................193 PART II Soil Components Chapter 7 Soil Composition and Characterization...........................................201 7.1 General Characteristics.........................................................201 7.1.1 Soil Structure............................................................201 7.1.2 Gas, Liquid, and Solid Soil Phases..........................203 7.1.3 Soil Particles.............................................................205 7.1.4 Soil Solution.............................................................205 7.2 Soil Composition...................................................................207 7.2.1 Soil Minerals............................................................207 7.2.1.1 Primary Minerals.....................................208 7.2.1.2 Secondary Minerals..................................210 7.2.1.3 Structural Elements of Soil Minerals.......211 7.2.2 Soil Organic Matter..................................................212 7.2.2.1 Humic Substances.....................................214 7.2.2.2 Nonhumic Substances...............................215 7.3 X-Ray-Based Characterization Methods...............................218 7.3.1 X-Ray Diffraction.....................................................218 7.3.2 X-Ray Absorption-Based Methods..........................219 7.3.3 X-Ray Fluorescence.................................................224 7.3.4 X-Ray Photoelectron Spectroscopy..........................224 7.4 Other Spectroscopic Methods...............................................227 7.4.1 UV-Visible Molecular Spectrometries.....................227 7.4.2 UV-Visible Atomic Spectrometry...........................228 7.4.3 Infrared Spectroscopy..............................................229 7.4.4 Nuclear Magnetic Resonance...................................232 Contents 7.5 Microscopies..........................................................................237 7.5.1 Optical Microscopy..................................................237 7.5.2 Electron Microscopy................................................237 7.5.3 Atomic Force Microscopy........................................238 7.6 Miscellaneous Methods.........................................................241 7.6.1 Neutron Activation Analysis....................................241 7.6.2 Electrophoretic Separations.....................................242 7.6.3 Field-Flow Fractionation..........................................243 7.6.4 Surface Area Measurement......................................243 7.6.4.1 Physical Methods......................................243 7.6.4.2 Positive Adsorption Methods....................244 7.6.4.3 Negative Adsorption Methods..................248 7.6.5 Thermal Analysis Methods......................................249 7.6.5.1 Differential Thermal Analysis..................249 7.6.5.2 Differential Scanning Calorimetry...........252 7.6.5.3 Thermogravimetry....................................253 7.7 Chemical Characterization....................................................253 7.8 Soil Analysis..........................................................................253 7.9 Summary...............................................................................255 References........................................................................................255 Chapter 8 Silicate-Based Minerals..,...............................................................265 8.1 Structure and Classification of Silicate-Based Minerals.......265 8.2 Kaolin-Serpentine Group (1:1) Clays....................................277 8.3 Low Permanent Charge 2:1 Phyllosilicates: Pyrophyllite- Talc Group.............................................................................278 8.4 Permanently Charged 2:1 Phyllosilicate Minerals................279 8.4.1 Micas........................................................................279 8.4.2 Vermiculites.............................................................281 8.4.3 Smectites..................................................................282 8.4.4 Chlorites...................................................................283 8.4.5 Interstratified Phyllosilicates....................................285 8.5 Other Aluminosilicate Minerals............................................286 8.5.1 Allophane and Imogolite..........................................286 8.5.2 Palygorskite and Sepiolite........................................287 8.5.3 Zeolites.....................................................................288 8.6 Characterization of Silicate Minerals....................................289 8.6.1 Identification and Crystalline Structure...................289 8.6.2 Ion Exchange............................................................290 8.6.3 Specific Surface Area...............................................291 8.7 Ion Binding to Silicate-Based Minerals................................293 8.8 Summary...............................................................................295 References........................................................................................295 xviii Contents Chapter 9 Oxide Minerals.................................................................................299 9.1 Silica Minerals.......................................................................299 9.2 Aluminum (Hydr)Oxides.......................................................300 9.3 Iron (Hydr)Oxides.................................................................307 9.4 Manganese Oxides................................................................311 9.5 Titanium and Zirconium Oxide Minerals.............................314 9.5.1 Titanium Oxides.......................................................314 9.5.2 Zirconium Minerals.................................................318 9.6 Characterization of Oxides....................................................318 9.6.1 Identification and Crystalline Structure...................318 9.6.2 Spectroscopic Studies...............................................318 9.6.3 Specific Surface Area and Surface Charge..............321 9.6.4 Miscellaneous Methods............................................323 9.7 Ion Binding to Oxide Minerals..............................................323 9.7.1 Cation Binding.........................................................324 9.7.2 Anion Binding..........................................................328 9.8 Summary...............................................................................332 References........................................................................................332 Chapter 10 Humic Substances............................................................................337 10.1 Nature and Classification of Soil Humic Substances............337 10.2 Extraction of HS....................................................................338 10.2.1 Alkaline Extraction..................................................339 10.2.2 Mild Extradants.......................................................341 10.2.2.1 Na4P207 and Other Neutral Salts..............341 10.2.2.2 Formic Acid (HCOOH)............................341 10.2.2.3 Organic Chelating Agents.........................341 10.2.3 Sequential Extractions..............................................342 10.3 Characterization, Composition, and Structure of HS............342 10.3.1 Elemental Composition............................................342 10.3.2 Molecular Weight and Size Distributions................342 10.3.2.1 Colligative Properties...............................343 10.3.2.2 Light Scattering........................................344 10.3.2.3 Size-Exclusion Chromatography..............345 10.3.2.4 Ultracentrifugation...................................345 10.3.2.5 Viscosimetry.............................................347 10.3.2.6 Microscopic Observation..........................348 10.3.2.7 Other Techniques......................................349 10.3.3 Spectroscopic Methods............................................350 10.3.3.1 Infrared Spectroscopy..............................350 10.3.3.2 Nuclear Magnetic Resonance...................350 10.3.3.3 UV-Visible and Fluorescence Spectroscopy.............................................352 Contents 10.3.4 Functional Groups and Acid-Base Properties.........359 10.3.4.1 Functional Group Analysis.......................359 10.3.4.2 Structural Studies by Chemical Degradative Methods................................361 10.3.4.3 Structural Studies by Thermal Degradation..............................................362 10.3.5 Molecular Structure of HS.......................................364 10.4 Ion Binding to Hs..................................................................370 10.5 Summary...............................................................................373 References........................................................................................373 PART III Ion Binding to Soil Colloids Chapter 11 Modeling Ion Binding: General Concepts.......................................383 11.1 General Problem....................................................................383 11.1.1 Chemical Modeling..................................................385 11.1.2 Modeling Bases.................................................:......387 11.2 Affinity Spectra.....................................................................388 11.2.1 Discrete Affinity Spectra.........................................389 11.2.1.1 Proton-Binding Equilibrium.....................389 11.2.1.2 Competitive Binding.................................390 11.2.2 Continuous Affinity Spectra....................................391 11.2.2.1 Proton Binding..........................................392 11.2.2.2 Competitive Metal Binding......................393 11.3 Extraction of Affinity Spectra...............................................396 11.3.1 Intrinsic and Conditional Equilibrium Constants.... 397 11.3.2 Semianalytical Methods...........................................397 11.3.3 Modified Least Squares Methods.............................399 11.3.4 Maximum Entropy Formalism.................................405 11.4 Kinetic Aspects.....................................................................406 11.5 Summary...............................................................................408 References........................................................................................408 Chapter 12 Ion Binding to Minerals: Discrete Site Modeling............................415 12.1 Ion Binding to Mineral Components.....................................415 12.2 Generic Surface Description: Classical Electrostatic Models...416 12.2.1 Triple-Layer Model..................................................416 12.2.1.1 Model Statement.......................................416 12.2.1.2 Applications of the Triple-Layer Model ...420 12.2.1.3 Further Advances: Extended Triple-Layer Model...................................422 xx Contents 12.2.2 Simplified Modeling: Basic Stern and Constant Capacitance Models.................................................424 12.2.3 Stern Extended or Quad Layer Model......................428 12.3 Detailed Surface Description: CD-MUSIC Model...............430 12.3.1 Model Formulation...................................................430 12.3.2 Application of the CD-MUSIC Model.....................433 12.4 Comparison between Models................................................434 12.5 Application to Charge Regulation between Particles............437 12.6 Summary...............................................................................441 References........................................................................................442 Chapter 13 Ion Binding to Humic Substances: Distributed Site Modeling........447 13.1 Ion Binding to Soil Organic Matter.......................................447 13.2 Affinity Spectra of Humic Substances..................................447 13.2.1 Discrete Affinity Spectra.........................................448 13.2.2 Continuous Affinity Spectra....................................452 13.2.3 Structure-Based Affinity Spectra.............................453 13.3 Electrostatic Modeling of Ion Binding to Humic Particles.... 455 13.3.1 Particle Models.........................................................455 13.3.2 Donnan Phase Models..............................................457 13.4 Models for Ion Binding to Humic Substances.......................460 13.4.1 Windermere Humic Models.....................................460 13.4.2 Stockholm Humic Model.........................................462 13.4.3 NICA-Donnan Model..............................................466 13.4.4 NICA-EPN Model...................................................468 13.4.5 Comparison of the Different Models.......................470 13.5 Summary...............................................................................472 References........................................................................................473 Chapter 14 Ion Binding to Soils..........................................................................479 14.1 State of Soil Components in Natural Soils............................479 14.2 Ion Binding to Several Soil Components..............................480 14.2.1 Additivity Rule.........................................................480 14.2.2 Sorption to Binary and Ternary Component Systems.....................................................................481 14.2.3 Sorption in Complex Systems and Whole Soils.......485 14.3 Models for Ion Sorption to Soils...........................................490 14.3.1 Assemblage Models..................................................490 14.3.2 Incorporation of HS-Mineral Interaction: LCD Model..............................................................493 14.4 Summary and Perspectives...................................................495 References........................................................................................496 Index......................................................................................................................501
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spelling	Molina, Fernando V. Verfasser aut Soil colloids properties and ion binding Fernando V. Molina Boca Raton [u.a.] CRC Press 2014 XXVIII, 513 S. txt rdacontent n rdamedia nc rdacarrier Surfactant science series 156 Includes bibliographical references and index Soil colloids Soils Analysis Bodenkolloid (DE-588)4146150-2 gnd rswk-swf Bodenkolloid (DE-588)4146150-2 s DE-604 Surfactant science series 156 (DE-604)BV001889743 156 HBZ Datenaustausch application/pdf http://bvbr.bib-bvb.de:8991/F?func=service&doc_library=BVB01&local_base=BVB01&doc_number=026218614&sequence=000002&line_number=0001&func_code=DB_RECORDS&service_type=MEDIA Inhaltsverzeichnis
spellingShingle	Molina, Fernando V. Soil colloids properties and ion binding Surfactant science series Soil colloids Soils Analysis Bodenkolloid (DE-588)4146150-2 gnd
subject_GND	(DE-588)4146150-2
title	Soil colloids properties and ion binding
title_auth	Soil colloids properties and ion binding
title_exact_search	Soil colloids properties and ion binding
title_full	Soil colloids properties and ion binding Fernando V. Molina
title_fullStr	Soil colloids properties and ion binding Fernando V. Molina
title_full_unstemmed	Soil colloids properties and ion binding Fernando V. Molina
title_short	Soil colloids
title_sort	soil colloids properties and ion binding
title_sub	properties and ion binding
topic	Soil colloids Soils Analysis Bodenkolloid (DE-588)4146150-2 gnd
topic_facet	Soil colloids Soils Analysis Bodenkolloid
url	http://bvbr.bib-bvb.de:8991/F?func=service&doc_library=BVB01&local_base=BVB01&doc_number=026218614&sequence=000002&line_number=0001&func_code=DB_RECORDS&service_type=MEDIA
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